SU1379780A1 - Device for protecting power supplies against accidental variations of input voltage - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to methods for protecting electrical lines, machines and devices, and can be used in electronic equipment protection systems against emergency increases and decreases in input voltage. The goal is to increase sensitivity, simplify the circuit, reduce size and weight while simultaneously reducing the level of ripple voltage at the output of the device in normal mode, which is achieved by controlling the input voltage at the input and generating a control signal when it deviates to the threshold set by the onopHord source a voltage that transfers the switching element of the adjustable converter to the switching mode, determined by the source of alternating voltage, 2 s, n, f, ly, 2 Il. S (l

Description

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The invention relates to electrical engineering, in particular, to methods for protecting electrical lines of machines and devices, and can be used in systems for protecting electronic equipment from emergency lines and input voltage drops.

The purpose of the invention is to increase the sensitivity, simplify the circuit, reduce the size and weight while reducing the level of ripple voltage at the output in normal mode.

FIG. a diagram of the device for protection of power sources against emergency changes in the input voltage when it is raised is presented; Fig. 2 is the same as lowering the input voltage.

The device for protection of power sources from emergency voltage increase of the primary network (Fig. 1) contains voltage sensor 1 of primary network 1 connected between the device input and the common bus and output connected to the non-inverting input of the integrated voltage comparator 2, the inverting input of which is connected to supporting element 3, and the output with one of the inputs of the logical element AND-NOT 4, the other input of which is connected to the output of the alternating voltage generator 5, and the output to the input of the matching stage 6, the power output of which is under connected to the input of the device, and the output to the control output of the protective element 7, one power output connected to the input of the device, and the other to the connection point of the cathode of the switching diode 9 and one of the outputs of the drossel 10 of the smoothing HC- (1ll 8, and free output Drossel 10 is connected to the output of the device, and the anode of the switching diode 9 is connected to the common bus, the capacitor 1I is connected between the output of the device and the common bus.

In the device for protecting the power supply from emergency lowering of the primary network voltage (FIG. 2), the inverting input of the integral voltage comparator 2 is connected to the input of the input voltage sensor 1, the non-inverting input is connected to the supporting element 3, and the choke 10 one is connected to the input of the device, and the other with the anode of the commuting

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a diode 9, the cathode of which is connected to the output of the device, one power output of the protective element 7 is connected to the junction point of the throttle 10 and the switching diode 9, and the other to the common pshna.

The device works as follows.

During normal operation, in the absence of an emergency increase in input voltage, at the output of the sensor

1 the input voltage potential is. Is below a predetermined level determined by the value of the voltage on the support element 3, as a result of which the output of the integral comparator

2 supports a low voltage corresponding to the state of a logical zero. The presence of a zero at one of the inputs of the logical element AND-NOT 4 prohibits the passage of pulses from the alternating voltage generator 5 to the output of the specified element, as a result of which | through matching cascade 6, it keeps the security element 7 in the open state.

Power dissipated on the protective element and other elements of the device is negligible. The elements of the LC filter 8 in this mode perform the functions of an input smoothing and blocking filter of the power source.

When a short voltage pulse arrives at the input of the device, the duration of which is not enough to trigger the protective element 7, they are extinguished by the HC filter 8.

If there is a long overvoltage at the input, the potential at the output of the sensor 1 of the input voltage exceeds the voltage on the supporting element 3, as a result of which the output of the threshold element - integrated voltage comparator 2 produces a signal of logical unit, allowing the passage through the logical element I- NOT 4 pulses from the alternating voltage generator 5 to the input of the matching stage 6, with which the protective element 7 is pulsed. At the output of the protective element, pulses are generated, with amplitude avnye input voltage, r frequency and duty cycle, defined by the generator 5 of alternating voltage smoothing LC-filter 8 via komkgutiruyuschego diode 9 generates at the output DC voltage whose value is determined by the duty cycle of the pulse generator AC voltage.

Since the protective element 7 in the emergency mode operates in a pulsed mode, the power dissipated on it is insignificant and depends only on its speed and key properties. With an increase in the switching frequency, the mass of the C-fiber means a drop but it can be achieved sufficiently. high mass-dimensional characteristics of the device With the introduction into the generator of alternating voltage information about the magnitude of the input voltage can be known methods, for example using pulse-width modulation, get the heading dence duty cycle the magnitude of the input voltage - voltage, thereby limiting the magnitude of the output voltage at a predetermined level.

During normal operation, in the absence of an emergency lowering of the input voltage, the potential at the output of sensor 1 of the input voltage is less than a predetermined level at the reference element 3, as a result of which the output of the threshold element - integral comparator 2 forms a signal of logical zero, and the state of the circuit similar to the first variant of the device, except for the fact that the protective element is in the closed state. The power dissipated by the device is mainly determined by the resistance of the open junction of the switching diode 9. HC-elements (1 pin in normal mode also functions as an input filter of the power supply.

If there is a long decrease in the input voltage, the protective element 7 is converted into a pulsed mode in the same way as the first one, as a result of which, using well-known diode elements, a constant voltage, the value of which is higher than the input voltage, is determined by the known principles using a switching diode variable voltage and can also be set.

Claims (2)

Invention Formula  . A power source protection device against accidental changes in the input voltage, containing an adjustable converter included in the power bus and a source of voltage, the output of which is connected to the first input of the comparison node, the second input of which is connected to the output of the voltage sensor, increase sensitivity, simplify the circuit, reduce size and weight while reducing the level of ripple voltage at the output in the normal mode, it has a logical AND-NE element and a geerator n belt voltage, the output of which is connected to the first input of NAND gate, a second input connected to the output of the comparator, and the output of NAND gate is connected to the control input of the controlled converter, wherein the voltage sensor is connected to the input terminals vhodkdm, 2. A pop device, 1, distinguished by the fact that, in order to provide protection against an increase in the output voltage, the adjustable converter is made with a series switching element, the output of which is connected to a shunt diode and (JauibTpoM, 3, Device pop, 1, distinguished by the fact that, in order to provide protection against lowering the output voltage, the adjustable converter is made with a parallel switching element and a filter whose choke is connected in series with the diode to the power bus, the capacitor is connected to the output pins, with the first power output of the commutation element of the soideia with the common point of the throttle and the diode, and the second output is connected to the absciseum. Phi g.2